Battery pack shipping system and method

ABSTRACT

A battery pack packaging system and method includes a kit box with a body, a first receptacle in the body operable to receive at least one of a cordless device and a charging device, a second receptacle in the body, and a battery container removably received by the second receptacle, the battery container configured to meet regulatory rules for shipping a battery pack with a cordless device or separately from a cordless device.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. patent application Ser. No.11/071,887, filed on Mar. 3, 2005, which claims the benefit of U.S.Provisional Application No. 60/551,211, filed on Mar. 8, 2004. Thedisclosures of the above applications are incorporated herein byreference.

FIELD OF THE INVENTION

The present invention generally relates to battery pack packaging and,more specifically, to improved packaging for battery packs.

BACKGROUND OF THE INVENTION

International goods transportation regulations pertaining to lithium andlithium ion cells and batteries have tightened as a result of increasingconcern by regulatory officials regarding shipments of high-energydensity batteries and the proliferation of lithium ion batterytechnologies. Current regulations limit the lithium content of lithiumbatteries, and subject lithium ion batteries to a lithium equivalencycalculation where equivalent lithium content is calculated in grams on aper-cell basis to be 0.3 times the rated capacity in ampere hours. Thus,the equivalent lithium content for a battery is the rated capacity inampere hours for a single cell multiplied by 0.3 and then multiplied bythe number of cells in the battery or battery pack.

Current regulations set lithium content or equivalent content limits forcells and batteries. For a lithium metal or lithium alloy cell, thelithium content limit is not more than 1.0 gram per cell and not morethan 2.0 grams per battery. Also within the regulations is an exceptionthat allows lithium ion cells containing less than 1.5 grams ofequivalent lithium content and lithium ion batteries containing lessthan 8.0 grams of equivalent lithium content to be shipped withoutundergoing certain testing and other requirements required of largerlithium and lithium ion cells and batteries.

SUMMARY OF THE INVENTION

A kit box according to the invention includes a body, a first receptaclein the body and operable to receive a cordless device, a secondreceptacle adjacent the first receptacle, and a battery containerremovably placed in the second receptacle. The battery container may beconfigured to meet regulatory rules for shipping a battery pack. The kitbox may include a battery container configured to meet regulatory ruleswhen shipped with the cordless device, or the battery container may beconfigured to meet regulatory rules when shipped separately from thecordless device.

Further areas of applicability of the present invention will becomeapparent from the detailed description provided hereinafter. It shouldbe understood that the detailed description and specific examples, whileindicating the preferred embodiment of the invention, are intended forpurposes of illustration only and are not intended to limit the scope ofthe invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will become more fully understood from thedetailed description and the accompanying drawings, wherein:

FIGS. 1-6 are schematic views of various battery packs according to theinvention;

FIG. 7 is a side view of a battery pack according to the invention;

FIG. 8 is an end view of a battery pack according to the invention;

FIG. 9 is a side view of a battery pack according to the invention;

FIG. 10 is a plan view of a battery pack according to the invention;

FIG. 11 is a diagram illustrating a method according to the invention;and

FIGS. 12 and 13 are schematic views illustrating another methodaccording to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following description of the preferred embodiment(s) is merelyexemplary in nature and is in no way intended to limit the invention,its application, or uses.

Referring to the drawings, and to FIGS. 1-6 in particular, a batterypack 10 is shown in several variations (battery pack 10A-10F) andgenerally includes multiple batteries 12 having terminals for connectingto a charging device and/or cordless device. As shown, each battery pack10 includes two batteries 12, but additional batteries 12 may beincluded. Battery packs 10A, 10B and 10F are unitary in construction,while battery packs 10C, 10D and 10E are physically separable intomultiple parts.

Battery packs 10 may be configured including any number of cells toprovide the required storage capacity. For packaging and transportation,however, a range of configurations designed to both meet regulations andadequately supply capacity may be constructed. For example, a 36-volt10-cell lithium ion battery pack provides adequate capacity betweenabout 2.17 and 2.67 ampere hours, and provides preferred capacitybetween about 2.17 and 5.56 ampere hours. For a 36-volt, 20-cell lithiumbattery pack configuration, adequate capacity can be achieved with tentwo-cell units, wherein each cell provides between about 1.08 and 1.33ampere hours, and provides preferred capacity between about 1.08 and2.78 ampere hours. Each cell of the two-cell unit is wired in parallelto the other cell and the ten units are wired in series to form the pack(a 2p10s pack configuration). Each two-cell unit may provide a storagecapacity between about 2.17 and 2.67 ampere-hours, and preferablybetween 2.17 and 5.56 ampere-hours. For both the 10- and 20-cellconfigurations, the range for adequate capacity yields an equivalentlithium content between about 6.5 and 8.0, and watt hours between about18 and 96; the range for preferred capacity yields an equivalent lithiumcontent between about 6.5 and 16.7, and watt hours between about 78 and200.

Each battery 12 represents a plurality of battery cells (cell stack)connected in series to define the voltage and in parallel to define thestorage capacity for battery 12. The configuration of battery pack 10permits operational flexibility by allowing terminals in a cordlessdevice and/or charging device to selectively short one or more terminalsof batteries 12 to connect the batteries in series or parallel asdictated by charging requirements or cordless-device type. Seriesmanipulations adjust the voltage of battery pack 10 and parallelmanipulations adjust the storage capacity of battery pack 10. Forexample, two 18-volt batteries 12 connected in parallel may supply 18volts to a cordless device at a higher capacity than two 18-voltbatteries 12 connected in series. That is, the same two 18-voltbatteries 12 connected in series may supply 36 volts, but only half thecapacity of the parallel configuration.

As shown in FIG. 1, battery pack 10A includes a first battery contact20, a second battery contact 22, and a third battery contact 24 in aterminal block 26. Battery contact 20 is the B+ (positive) terminal forbattery pack 10A. Battery contact 22 is the B− (negative/common)terminal for battery pack 10A. Battery contact 24 is an intermediateterminal dividing the battery pack 10A into a pair of batteries 12, eachincluding a separate stack of cells. Battery contact 24 allows seriesmanipulations of batteries 12. Additional contacts can be provided tofurther divide the battery pack 10A into multiple batteries 12.

With reference to FIG. 2, battery pack 10B includes a pair of batteries12, each including a plurality of battery cells connected in seriesand/or parallel. The battery pack 10B includes a terminal block 38having four battery contacts: first battery contact 30, second batterycontact 32, third battery contact 34, and fourth battery contact 36.First and third battery contacts 30 and 34 are B+ (positive) terminalsfor the respective battery 12. Second and fourth battery contacts 32 and36 are B− (negative/common) terminals for the respective battery 12. Asshown, a pair of batteries 12 define the battery pack 10B, eachrepresenting a separate stack of cells connected in series and/orparallel to define the voltage and capacity of battery 12. It should benoted, however, that more than two separate cell stacks, each defining abattery 12, can be provided in the same battery pack 10B. Further,through terminal block 38, batteries 12 may be connected in series orparallel to manipulate the voltage and capacity of battery 12 or batterypack 10.

Referring now to FIG. 3, battery pack 10C includes a housing 14 havinghousing parts 16 and 18 coupled by a mechanical interface 52. Themechanical interface 52 may be any structure for joining separate parts.Further, battery pack 10C includes a controller 50 electrically coupledto a terminal block 48 having a first contact 40, a second contact 42, athird contact 44, and a fourth contact 46. The first and third batterycontacts 40, 44 are B+ (positive) terminals for respective batteries 12,while second and fourth battery contacts 42, 46 are B− (negative/common)terminals. Batteries 12 may be connected in series or parallel tomanipulate the voltage and capacity of battery 12 or battery pack 10.The controller 50 may be a microprocessor or other circuit to controlcharging and discharging of the battery pack 10, and also providessafety and control functions including communication, identification,status, diagnostic, logging and switching. The controller 50 providesthese functions for the plurality of batteries 12 included in batterypack 10, wherein batteries 12 may each including a plurality of batterycells connected in series and/or parallel.

Battery pack 10D of FIG. 4 is similar to battery pack 10C of FIG. 3 butincludes separate controllers 50 in each housing part 16, 18. In thismanner, each battery 12, which may include a plurality of battery cellsconnected in series and/or parallel, includes its own controller 50providing the various functions discussed above.

Battery pack 10E of FIG. 5 is similar to battery packs 10C and 10D ofFIGS. 3 and 4, respectively, but further includes a separator material60 to physically separate the housing parts 16, 18 for storage, displayand/or shipping. Separator material 60 functions to prevent electricalconnection between the circuits of separate batteries 12 disposed ineach of housing parts 16, 18. Further, separator material 60 preventsthe spread of flame should either housing part combust while beingstored, displayed or shipped. Thus, separator material 60 may befabricated from a material having insulative and/or flame retardantproperties.

Battery pack 10F of FIG. 6 is similar to battery pack 10B of FIG. 2, butincludes separator material 60 in battery pack 10F, which is unitary inconstruction, in order to provide the control and safety features duringstorage, display or shipping. Separator material 60 is integrated intohousing 14 of battery pack 10F to provide insulative and/or flameretardant properties between batteries 12 and within housing 14.

Battery pack housing 14, whether unitary in structure (FIGS. 1, 2 and 6)or including physically separable housing parts 16, 18 (FIGS. 3, 4 and5) may be fabricated from a non-flammable material to contain combustionwithin housing 14 or a housing part 16, 18. Further, by providing a moredurable housing, potential for damage to the batteries 12 can belessened, thereby reducing potential combustion issues. Battery packhousing 14 may be fabricated from steel, sheet metal, aluminum,magnesium or titanium, or any other material that functions to retardflame or prevent combustion. Further, battery pack housing 14 mayincorporate intumescent material. For example, plastic resin pellets maybe combined with intumescent material pellets and injection molded toform a battery pack housing 14 that retards flame or preventscombustion.

Battery packs 10 are often used with cordless products, from housewaresto power tools. Whether nickel-cadmium, nickel-metal hydride, lithium,lithium ion or lithium polymer are used as the storage medium, batterypack 10 generally includes cell stacks disposed within housing 14 andterminal block 26, 38, 48 providing electrical communication between thebattery pack 10 and the cordless product for which it is supplyingelectricity. Terminal block 26, 38, 48 and cell stacks are electricallyconnected and such electrical connections are not shown for the sake ofclarity.

With reference to FIGS. 7-10, housing 14 of battery pack 10 includes atower 70, which may include an aperture (not shown) exposing terminalblock 26, 38, 48 for electrical connection to a cordless product. Thehousing generally includes air vents 72 and may include one or morehousing parts 16, 18 or covers 78 requiring a joint 74 and/or bosses 76.To the extent apertures or seams are included in housing 14 because ofsuch joints and/or bosses, flame may escape housing 14 should combustionoccur. Thus, even where housing 14 is constructed from an insulative orflame retardant material as discussed above, the apertures and/or seamsprovide a passage for combustion to spread to other battery packs 10 orhousing parts 16, 18 during storage, display or shipping. The seamsand/or apertures may include intumescent material 80, such as caulk,disposed adjacent air vent 72, along joint 74 or about bosses 76 to plugthe aperture and/or seal the seam upon exposure to high heat or flame.Thus, upon high heat, combustion or fire in battery pack 10, intumescentmaterial 80 expands to plug or seal air vents 72, joints 74, or bosses76 to prevent the spread of combustion to other battery packs 10 orhousing parts 16, 18.

In tumescent material 80, such as a coating, may be applied to housing14 to ensure structural performance and contain any combustiblematerials within battery pack 10 or housing parts 16, 18. Similarly,intumescent material 80 may be used to fabricate or coat spacers,insulation plates, gaskets, cell insulators and/or cushions within thebattery pack to further contain combustion. Most components of thebattery pack, 10 may be constructed or coated with intumescent material80.

When shipping battery packs 10, whether a unitary construction orincluding housing parts 16, 18, specialized pallets may be used toprovide additional safeguards. As shown in FIG. 11, such pallets areshipped from a factory 100 to a distribution center 102 and then to acustomer 104, such as a retail outlet. Because of the specialized designof the pallets, it is advantageous for cost and logistical reasons toreturn the empty pallets from the customer 104 to the factory 100 forreuse, either directly or through the distribution center 102. Such adistribution method according to the invention provides transportationefficiency in meeting regulatory rules, such as by electricallyseparating batteries 12 of battery pack 10A, 10B or 10F, for example.The specialized pallets may provide separate shipment storage forhousing parts 16, 18 of battery pack 10C or 10D, for example. Thespecialized pallets may provide separating material 60 for isolatinghousing parts 16, 18, such as that shown for battery pack 10E.

With reference to FIG. 12, a kit box 120 is shown including receptaclesreceiving a cordless device 122 and a battery charging device 123, aswell as a receptacle 124 adapted to receive a container 126 for shippingbattery pack 10. Container 126 may be designed or fabricated to meetregulatory rules as described above, or any variation thereof. Becausethe kit box 120 is the shipping container for at least the cordlessdevice 122 and battery charging device 123, any regulatory rulescovering battery pack 10 may be met by separately packaging and/orshipping battery pack 10 in container 126, which is fabricated to meetregulatory rules, thereby limiting the expense of containing the entirekit in a container or kit box fabricated to meet regulatory rules. Ifshipped separately, at customer 104, container 126 is placed in kit box120 for display and sale, as shown in FIG. 13. Alternatively, batterypack 10 can be shipped, stored and displayed in a suitable container 126in kit box 120, as shown in FIG. 13, where container 126 is fabricatedto meet regulatory rules. Kit box 120 may be used by the customer tostore and transport cordless device 122.

The description of the invention is merely exemplary in nature and,thus, variations that do not depart from the gist of the invention areintended to be within the scope of the invention. Such variations arenot to be regarded as a departure from the spirit and scope of theinvention.

1. A kit box comprising: a body; a first receptacle in said body thatreceives at least one of a cordless device and a charging device; asecond receptacle in said body, said first and second receptacles beingpositioned in said body; and a battery container removably received bysaid second receptacle, said battery container containing a battery packtherein, said battery container fabricated to enable said batterycontainer to be shipped separately from said body containing at leastone of the cordless device and the charging device.
 2. A method ofpacking a kit box comprising: placing a battery pack in a batterycontainer; placing a cordless power tool device in a first receptacle ofa kit box; shipping said battery pack to a customer in said batterycontainer; separately shipping said cordless power tool device to thecustomer in said kit box; and placing said battery container in a secondreceptacle of said kit box after being shipped to said customer.